¡Nos trasladamos! E-Prints cerrará el 7 de junio.

En las próximas semanas vamos a migrar nuestro repositorio a una nueva plataforma con muchas funcionalidades nuevas. En esta migración las fechas clave del proceso son las siguientes:

Es muy importante que cualquier depósito se realice en E-Prints Complutense antes del 7 de junio. En caso de urgencia para realizar un depósito, se puede comunicar a docta@ucm.es.

Modeling the thermopower of icosahedral Al_(63)Cu_(25)Fe_(12) quasicrystals: spectral fine structure



Downloads per month over past year

Maciá Barber, Enrique Alfonso (2004) Modeling the thermopower of icosahedral Al_(63)Cu_(25)Fe_(12) quasicrystals: spectral fine structure. Physical review B, 69 (13). ISSN 1098-0121

[thumbnail of MaciáE 20 libre.pdf]

Official URL: http://dx.doi.org/10.1103/PhysRevB.69.132201


On the basis of a realistic model for the spectral conductivity, obtained from a proper combination of tunneling spectroscopy [R. Escudero , J. Phys.: Condens. Matter 11, 383 (1999)] and transport measurements, we derive a closed analytical expression for the Seebeck coefficient, satisfactorily describing its temperature dependence over a wide temperature range. The relative importance of thermal broadening effects and the temperature dependence of chemical potential in the thermopower curve is quantitatively discussed. By comparing the obtained analytical results with the experimental S(T) curve evidence for band structure effects in the thermopower is reported.

Item Type:Article
Additional Information:

©2004 The American Physical Society.
I warmly thank Professor R. Escudero for sharing his experimental data files and for fruitful discussions. I also thank Professor H. Solbrig for enlightening discussions. I am indebted to Dr. C. V. Landauro for interesting conversations and for sharing useful materials. I acknowledge M. V. Hernández for a critical reading of the manuscript. This work is supported by UCM through Project No. PR3/04-12450.

Uncontrolled Keywords:Al-Cu-Fe; Electronic transport-properties; Thermoelectric properties; Conductivity; Alloys; Phases; Law; Approximants; Dependence; Wiedemann
Subjects:Sciences > Physics > Materials
Sciences > Physics > Solid state physics
ID Code:44769
Deposited On:19 Oct 2017 18:31
Last Modified:19 Oct 2017 18:31

Origin of downloads

Repository Staff Only: item control page